G6SK-2F-HDC2POINT4 Omron, G6SK-2F-HDC2POINT4 Datasheet - Page 26

G6SK-2F-HDC2POINT4

Manufacturer Part Number

G6SK-2F-HDC2POINT4

Description

RELAY LOW SIGNAL LATCHING SMD

Manufacturer

Omron

Series

G6Sr

Datasheets

1.G2R-1A-E-DC12.pdf (30 pages)

2.G6S-2F-TR_DC3_BY_OMR.pdf (12 pages)

3.G6S-2F-TR_DC3_BY_OMR.pdf (2 pages)

Specifications of G6SK-2F-HDC2POINT4

Relay Type

Telecom

Contact Form

DPDT (2 Form C)

Contact Rating (current)

Switching Voltage

250VAC, 220VDC - Max

Coil Type

Latching, Dual Coil

Coil Current

58.3mA

Coil Voltage

2.4VDC

Turn On Voltage (max)

1.8 VDC

Turn Off Voltage (min)

Features

Mounting Type

Surface Mount

Termination Style

Gull Wing

Contact Material

Silver (Ag), Gold (Au)

Operate Time

4ms

Release Time

4ms

Coil Power

140 mW

Coil Resistance

41 Ohms

Operating Temperature

-40°C ~ 85°C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

G6SK2FHDC2POINT4

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■ Countermeasures Against

If a load such as a capacitor or lamp through which an inrush current

flows is connected to the power source and contact of the relay, the

supply voltage may drop when the contact is closed, causing the

relay to abnormally release.

Increasing the capacity of the transformer or providing an additional

control circuit can be used to prevent this drop in the supply voltage.

On some occasions, use of the following circuit may prevent voltage

drop.

The same circuit also applies when the relay is driven by a battery.

■ Designing Power-Conserving

This section introduces a patented drive circuit for the single-winding

latching relay that can be driven on several milliwatts. This drive cir-

cuit not only allows the relay to be used in the same manner as semi-

conductor devices but also offers a wide range of applications.

Operating principle

Set

When a specified voltage is applied across E, the current flows

through the circuit in the sequence of diode Di1, capacitor C, relay

Ry, and diode Di2. C is then charged, setting the relay.

Inrush Current

Driver Circuit with Single-

Winding Latching Relay

Electromechanical Relays

Technical Information

Energization

When C has been fully charged, the relay is biased by the current

flowing from Di1 to Rb. C does not discharge. The power consump-

tion at this time is very small, several milliwatts at best, and its value

can be calculated as follows:

P =

where,

P: power consumption

The current that is to flow through Rb at this time is dependent on the

transfer ratio h

Reset

When the voltage placed across E is removed, the electricity charged

in C is discharged, causing the current to flow through the circuit in

the sequence of Rb, the base, and the emitter of TR. In this way, the

relay is reset by the current flowing in the direction opposite to when

the relay is set.

The following equivalent circuits respectively illustrate the current

flows when the relay is set, energized, and reset.

Set

Energization

Reset

Circuit design

Fundamental

Generally, the latching relay is set and reset when a pulse having a

square waveform is applied to it for a short time. The minimum pulse

width required to set and reset the relay is predetermined.

The charging current shown in the above equivalent circuit diagrams,

has a sawtooth waveform that can be expressed by the following for-

mula, because it is the primary circuit of C and R.

(2 Forward voltage diode drops)

: voltage drop across diode Di1

(

------------------------ -

E V

–

)

of transistor TR which is required for TR to turn ON.

G6SK-2F-HDC2POINT4 Omron, G6SK-2F-HDC2POINT4 Datasheet - Page 26

G6SK-2F-HDC2POINT4

Specifications of G6SK-2F-HDC2POINT4

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